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Appendix J: Engineering Specification for Electrical Heat-Tracing Systems
H57428 8/03 (800) 545-6258 www.tycothermal.com Tyco Thermal Controls 1 of 11
Appendix J: Engineering Specification for Electrical Heat-Tracing Systems
Contents
1 Scope . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
2 Codes, Approvals, and Standards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
3 Materials . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
3.1 Self-Regulating Heating Cables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
3.2 Power-Limiting Heating Cables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
3.3 Mineral Insulated Heating Cables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
3.4 Tank Heating Pads. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
3.5 Longline Systems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
3.6 Heat-Trace Panels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
3.7 Control and Monitoring Systems. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
3.8 Thermostats and Contactors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
4 Engineering . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
5 Testing. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
1 Scope
This specification covers the requirements of materials and support services for heat-tracing
systems supplied by the vendor. Neither the supply of the materials related to the connection
of the power supply nor the installation of the entire system is part of this specification.
2 Codes, Approvals, and Standards
The electric heat-tracing system shall conform to this specification. It shall be designed,
manufactured, and tested in accordance with the applicable requirements of the latest edition
of the following codes and standards.
ANSI American National Standards Institute
BS6351 British Standard for Electrical Surface Heating
CEC Canadian Electrical Code
CSA CSA International
FM FM Approvals
IEC 216 International Electro-Mechanical Commission
IEEE 515 Institute Of Electrical and Electronics Engineers
ITS Intertek Testing Services (ETL)
NEC U.S. National Electrical Code (NFPA 70)
NEMA National Electrical Manufacturers Association
NESC National Electrical Safety Code
UL 746B, UL 508 Underwriters Laboratories, Inc.
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A. In order to ensure that the self-regulating heating cable does not increase power output
when accidentally exposed to high temperatures, resulting in thermal runaway and self-
ignition, the cable shall produce less than 0.5 watts per foot (1.64 watts per meter) when
energized and heated to 350F (177C) for 30 minutes. After this test, if the cable is reen-
ergized, it must not have an increasing power output leading to thermal runaway.
B. In order to confirm 3.1B, the self-regulating heating cable shall retain at least 90 percent
of its original power output after having been cycled 300 times between 50F (10C) and
210F (99C), allowing at least six minutes of dwell time at each temperature.
C. The heating cable shall be Raychem
BTV-CT or BTV-CR self-regulating heater, with con-
tinuous exposure (maintain) capability up to 150F (65C) and intermittent exposure
capability up to 185F (85C), as manufactured by Tyco Thermal Controls.
3.1.2 PROCESS TEMPERATURE MAINTENANCE WITH NO STEAM EXPOSURE
A. The heating cable shall consist of two 16 AWG or larger nickel-plated copper bus wires,
embedded in a self-regulating polymeric core that controls power output so that the cable
has a temperature identification number (T-rating) of T4 (275F or 135C) without use of
thermostats.
B. A ground-fault protection device set at 30 mA, with a nominal 100-ms response time,
shall be used to protect each circuit.
C. The heating cable shall have a tinned copper braid with a resistance less than the heatingcable bus wire resistance as determined in a type test (ASTM, B193, Sec. 5). The braid
shall be protected from chemical attack and mechanical abuse by a fluoropolymer outer
jacket.
D. In order to confirm 3.1B, the self-regulating heating cable shall retain at least 90 percent
of its original power output after having been cycled 300 times between 50F (10C) and
300F (110C), allowing at least six minutes of dwell time at each temperature.
E. The heating cable shall be Raychem QTVR-CT self-regulating heater, for continuous and
intermittent exposure capability up to 225F (110C), as manufactured by Tyco Thermal
Controls.
3.1.3 FREEZE PROTECTION AND PROCESS TEMPERATURE MAINTENANCE WITH STEAMEXPOSURE
A. The heating cable shall consist of two 14 AWG nickel-plated copper bus wires, separatedby a fluoropolymer spacer and helically wrapped with a self-regulating fluoropolymer
fiber that controls power output so that the cable has an unconditional temperature iden-
tification number (T-rating) of T2C (446F or 230C) or lower without use of thermostats.
B. A ground-fault protection device set at 30 mA, with a nominal 100-ms response time,
shall be used to protect each circuit.
C. The heating cable shall have a tinned copper braid with a resistance less than the heating
cable bus wire resistance as determined in a type test (ASTM, B193, Sec. 5). The braid
shall be protected from chemical attack and mechanical abuse by a fluoropolymer outer
jacket.
D. In order to confirm 3.1B, the self-regulating heating cable shall retain at least 90 percent
of its original power output after having been cycled 300 times between 50F (10C) and
450F (232C), allowing at least six minutes of dwell time at each temperature.
E. The heating cable shall be Raychem XTV-CT self-regulating heater, for continuous expo-sure (maintain) capability up to 250F (121C) and intermittent exposure capability up to
420F (215C or 250 psi steam), as manufactured by Tyco Thermal Controls.
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3.1.4 SYSTEMS FOR DIVISION 1 HAZARDOUS LOCATIONS
The following requirements shall apply in addition to the criteria specified in paragraph 3.1.1,
3.1.2, or 3.1.3.
A. The self-regulating heating cable shall be specifically FM approved or CSA Certified for
use in Division 1 locations.
B. A ground-fault protection device set at 30 mA, with a nominal 100 ms response time,
shall be used to protect each circuit.C. The temperature identification number (T-rating) of the cable used shall comply with FM
and CSA requirements as applicable.
D. Connection methods used with the cable shall be compatible and approved as a part of
the system manufactured and supplied by the heating cable vendor for use in the Division 1
location.
E. For plastic pipe and vessel applications, the heating cable shall be Raychem HBTV-CT
self-regulating heater, with continuous exposure capability up to 150F (65C) and inter-
mittent exposure capability up to 185F (85C), as manufactured by Tyco Thermal Controls.
F. The heating cable shall be Raychem HQTV-CT self-regulating heater, for continuous and
intermittent exposure capability up to 225F (110C), as manufactured by Tyco Thermal
Controls.
G. The heating cable shall be Raychem HXTV-CT self-regulating heater, for continuous expo-
sure (maintain) capability up to 250F (121C) and intermittent exposure capability up to420F (215C or 250 psi steam), as manufactured by Tyco Thermal Controls.
3.1.5 TERMINATIONS FOR NONHAZARDOUS AND HAZARDOUS CLASS 1, DIV 2 LOCATIONS
A. All connection components used to terminate heating cables, including power connec-
tors, splices, tees, and connectors shall be approved for the respective area classification
and approved as a system with the particular type of heating cable in use. Under no cir-
cumstances shall terminations be used which are manufactured by a vendor other than
the cable manufacturer.
B. In order to keep connections dry and corrosion resistant, components shall be con-
structed of nonmetallic, electrostatic, charge-resistant, glass-filled, engineered polymer
enclosure rated NEMA 4X. The component stand shall allow for up to four inches
(100 mm) of thermal insulation.
C. Terminals shall be spring clamp wire connection type to provide reliable connection,
maintenance-free operation, and ease of reentry.
D. Heating cable terminations shall use cold-applied materials and shall not require the use
of a heat gun, torch, or hot work permit for installation.
E. Components shall be rated to a minimum installation temperature of 40F (40C),
minimum usage temperature of 75F (60C), and maximum pipe temperature of 482F
(250C).
F. The component system shall be Raychem JBM-100-A-L connection kit complete with
integral LED power indicating light to serve as complete power, splice, or tee connection
for up to three Raychem BTV, QTVR, or XTV industrial parallel heating cables as manufac-
tured by Tyco Thermal Controls.
3.2 Power-Limiting Heating Cables
Heat-tracing applications with continuous exposure (maintain) temperatures from 250F
(121C) to 455F (235C) or power-off exposure temperatures from 420F (216C) to 482F
(250C) shall use power-limiting cables. Continuous exposure (maintain) temperatures are
based on wattage and voltage used; consult with vendor for specific cable temperature lim-
its. Applications below 482F (250C) continuous exposure, power-off, shall consider power-
limiting cables if more than one run of self-regulating heating cable is required.
The decision between self-regulating heating cable and power-limiting heating cable shall be
made considering the need for a T-rating that is not dependent on the specific application
(this is provided by self-regulating heating cables) and the number of runs of heat tracing
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required for the application. In some applications power-limiting heaters can use fewer runs
due to higher power output at higher temperatures.
A. Power-limiting heating cable shall use a metallic heating element that varies its power
output relative to the temperature of the surface of the pipe or the vessel. The cable shall
be a parallel-zoned heating cable with a positive temperature coefficient heating element
spirally wound around a flexible glass fiber core. The cable shall be designed such that it
can be crossed over itself one time and cut to length in the field.
B. A ground-fault protection device set at 30 mA, with a nominal 100-ms response time,
shall be used to protect each circuit.
C. Maximum heating cable sheath temperature, per either the FM or CSA method of calcula-
tion, shall be submitted with the bid or design for all Division 1 and Division 2 applications.
D. The power-limiting heating cable shall have 12 AWG copper bus wires.
E. A warranty against manufacturing defects for a period of 10 years shall be available.
F. All cables shall be capable of passing a 2.5 kV dielectric test for one minute (ASTM 2633)
after undergoing a 0.5 kg-m impact (BS 6351, Part 1, 8.1.10).
G. The heating cable shall be Raychem VPL-CT power-limiting heater, with continuous expo-
sure (maintain) capability of 300F (150C) to 455F (235C), depending on power out-
put required, and intermittent exposure capability up to 482F (250C), as manufactured
by Tyco Thermal Controls.
3.2.1 TERMINATIONS FOR NONHAZARDOUS AND HAZARDOUS CLASS 1, DIV 2 LOCATIONS
A. All connection components used to terminate heating cablesincluding power connec-
tors, splices, tees, and connectorsshall be approved for the respective area classifica-
tion and approved as a system with the particular type of heating cable in use. Under no
circumstances shall terminations be used which are manufactured by a vendor other than
the cable manufacturer.
B. In order to keep connections dry and corrosion resistant, components shall be con-
structed of nonmetallic, electrostatic, charge-resistant, glass-filled, engineered polymer
enclosure rated NEMA 4X. The component stand shall allow for up to four inches
(100 mm) of thermal insulation.
C. Terminals shall be spring clamp wire connection type to provide reliable connection,
maintenance-free operation, and ease of reentry.
D. Heating cable terminations shall use cold-applied materials and shall not require the useof a heat gun, torch, or hot work permit for installation.
E. Components shall be rated to a minimum installation temperature of 40F (40C),
minimum usage temperature of 75F (60C), and maximum pipe temperature of 482F
(250C).
F. The component system shall be Raychem JBM-100-A-L connection kit complete with
integral LED power indicating light to serve as complete power, splice, or tee connection
for up to three Raychem VPL industrial parallel heating cables as manufactured by Tyco
Thermal Controls.
3.3 Mineral Insulated Heating Cable Systems
All heat-tracing applications with continuous exposure (maintain) temperatures above 300F
(150C) to 455F (230C), depending on power output required, or intermittent exposure
temperatures above 482F (250C) shall use factory-terminated, mineral insulated (MI)
cables.
A. MI heating cable shall be magnesium oxide insulated, with copper or alloy conductors
and an Incoloy 825 sheath. The heating section of the cable shall be joined to a cold lead
also made of Incoloy 825.
B. Each cable shall be factory-terminated to the required length, consisting of the lengths
required for the pipe or equipment, plus an allowance for areas of additional heat loss
such as valves, flanges, fittings, supports, and the like, plus a reasonable excess to allow
for field variations. The cold lead section shall be seven feet long unless otherwise specified.
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C. Maximum heating cable sheath temperature, per either the FM or CSA method of calcula-
tion, shall be submitted with the bid or design for all Division 1 and Division 2 applications.
D. Each cable shall be shipped with the catalog number marked on the outside of the pack-
age, and a permanent metallic cable tag containing the heating cable length, wattage,
voltage, and current draw. If the cable has been designed for a hazardous location, the tag
shall also indicate the area classification and heat-tracing circuit number.
E. A warranty against manufacturing defects for a period of 10 years shall be available.
F. The heating cable shall be Pyrotenax
brand Alloy 825 MI, mineral insulated heating cable
with a maximum application temperature for the heating units of 1022F (550C) and a
maximum exposure temperature for the heating cable of 1238F (670C), as manufac-
tured by Tyco Thermal Controls.
3.4 Electrical Tank Heating Pads
A. The tank wall, to which the panel is to be fixed, shall be prepared according to panel man-
ufacturers instructions.
B. Panels shall be flexible so that they are easily fastened to the surface of the tank to be
heated.
C. Panels shall be suitable for maintaining the tank wall temperature at specified tempera-
ture continuously without degrading or changing output characteristics of the panel.D. Resistance heating elements shall be between flexible insulating layers, with a continuous
operating rating of at least 200F (93C) and a short-term withstand rating of at least
366F (186C), to insulate electrically and provide mechanical protection for the heating
elements. Elements shall be constant resistance.
E. Panels shall have an integrated thermostat to be used for over-temperature protection,
but an additional primary control thermostat must be used.
F. All heater circuits are required to be protected with a 30 mA ground-fault protection
device (GFPD).
G. For metallic tanks, supplied watt density (at 240 volts) shall be 1.9 watts/sq inch with a
T-rating of T2C.
H. For plastic tanks, supplied watt density (at 240 volts) shall be 0.6 watts/sq inch with a
T-rating of T4A.
I. A stainless steel ground plain on the external surface of the panel shall be supplied toprovide a ground path as required by the National Electrical Code section 427-22.
J. Vendor shall supply a stainless steel junction box. Cold leads shall be Teflon-coated 14
AWG copper leads contained within liquid-tight, flexible conduit for added protection.
K. Mounting instructions and all required materials for fastening panels to the tank wall are
to be furnished. Means other than thermal insulation are to be provided to hold panels in
position. In addition to the specified tank heater the following materials are required: Ray-
chem RHS Installation Kit (P/N 844869), DigiTrace
910 controller or equivalent,
BCK-35 clamp kit (P/N C77215) or equivalent, Thomas and Betts 5232 conduit fitting,
and 5302 sealing ring or agency approved equivalent.
L. Nonhazardous and hazardous location approvals for Class I, Division 2 Groups B, C, D,
Class II Division 1 and 2 Groups E, F, G and Class III shall be existing on all heating ele-
ments.
M. Installation and operation instructions shall be provided in hard copy and available on a
24-hour accessible Internet site. Installation instructions shall be Raychem Tank Heater
(H55207) instructions.
N. A Megger test at 2500 Vdc shall be performed on installation and once a year.
O. The panels shall be Raychem RHS tank heaters as supplied by Tyco Thermal Controls.
3.5 Longline Systems
A.
Self-Regulating, Two-Wire Geometry, Freeze Protection (5002000 feet)
. For freeze pro-
tection applications, without high temperature exposure, up to 2000 feet, a two-wire self-
regulating heater is often the best choice.
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1. The heating cable shall consist of two 10 AWG nickel-plated copper bus wires embed-
ded in a self-regulating polymeric core that controls power output so that the cable
can be used directly on plastic or metallic pipes. The cables shall have a temperature
identification number (T-rating) of T6 (185F or 85C) without use of thermostats.
2. The heating cable shall have a tinned copper braid with a resistance less than the heat-
ing cable bus wire resistance as determined in a type test (ASTM, B193, Sec. 5). The
braid shall be protected from chemical attack and mechanical abuse by a fluoropoly-
mer outer jacket.
3. The heating cable shall be Raychem LBTV2-CT for lengths of 5001125 feet and
SLBTV-CT for lengths of 11252000 feet, with continuous exposure capability up to
150F (65C) and intermittent exposure capability up to 185F (85C), as manufac-
tured by Tyco Thermal Controls.
B.
Self-Regulating, VL Geometry, Freeze Protection (100012,000 feet)
. For freeze protec-
tion applications, without steam exposure, above 2000 feet up to 12,000 feet a self-
regulating freeze protection heater in a VL geometry is often the best choice.
1. The heating cable shall consist of two 10 AWG nickel-plated copper bus wires embed-
ded in a self-regulating polymeric core, plus three additional 10 AWG nickel-plated
copper bus wires. The cable shall be able to be connected directly to a 3-phase, 4-wire,
480 Vac or 600 Vac source.
2. The heating cable shall have a tinned copper braid with a resistance less than the heat-ing cable bus wire resistance as determined in a type test (ASTM, B193, Sec. 5). The
braid shall be protected from mechanical abuse by a modified polyolefin outer jacket
or from mechanical abuse and chemical attack by a fluoropolymer outer jacket.
3. The heating cable shall be Raychem VLBTV2-CT self-regulating heater, with continu-
ous exposure capability up to 150F (65C) and intermittent exposure capability up to
185F (85C), manufactured Tyco Thermal Controls.
C.
Self-Regulating, VL Geometry, Freeze Protection and Process Temperature Maintenance
with Steam Exposure (10006000 feet)
. For process temperature maintenance and freeze
protection with steam exposure, a self-regulating process temperature maintenance
heater in a VL geometry is often the best choice.
1. The heating cable shall consist of two 14 AWG nickel-plated copper bus wires sepa-
rated by a fluoropolymer spacer and helically wrapped with a self-regulating fluo-
ropolymer fiber, plus three additional 14 AWG nickel-plated copper bus wires. Thecable shall be able to be connected directly to a 3-phase, 4-wire, 480 Vac or 600 Vac
source.
2. The heating cable shall have a tinned copper braid with a resistance less than the heat-
ing cable bus wire resistance as determined in a type test (ASTM, B193, Sec. 5). The
braid shall be protected from chemical attack and mechanical abuse by a fluoropoly-
mer outer jacket.
3. The heating cable shall be Raychem VLKTV2-CT self-regulating heater, with continu-
ous exposure capability up to 300F (150C) and intermittent exposure capability up
to 420F (215C) or 250 psi steam as manufactured by Tyco Thermal Controls.
D.
Constant-Wattage Series Resistance, Freeze Protection and Process Temperature
Maintenance up to 482F (250C) with Steam Exposure (50010,000 feet).
For process
temperature maintenance and freeze protection with steam exposure, a constant wattage
series resistance heater is often the best choice, particularly when more than one run of
self-regulating heater is needed.
1. The heating cable shall be a series resistance constant wattage heater. It shall consist
of one or two copper conductors or copper alloy conductors insulated with high tem-
perature heavy-walled fluoropolymer.
2. The heating cable shall have a tinned or nickel-plated copper braid to provide a ground
path. The braid shall be protected from chemical attack and mechanical abuse by a
fluoropolymer outer jacket.
3. The heating cable shall be constant wattage Raychem SC, with continuous exposure
capability up to 400F (204C) and Raychem SC/H with continuous exposure capabil-
ity up to 482 F (250C) as manufactured by Tyco Thermal Controls.
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E.
Constant-Wattage, Mineral Insulated (MI), Series Resistance, Freeze Protection and Pro-
cess Temperature Maintenance from 482F (250C) to 1022F (550C) with Steam Expo-
sure (5,00010,000)
. A constant wattage Alloy 825 series resistance heater is often the best
choice for high temperature, longline, and corrosion resistant applications.
1. MI cable shall be magnesium oxide insulated, with copper or alloy conductors and an
Incoloy 825 sheath. The heating section of the cable shall be joined to a cold lead also
made of Incoloy 825.
2. Each cable shall be factory-terminated to the required length, consisting of the lengths
required for the pipe or equipment, plus an allowance for areas of additional heat loss,
such as valves, flanges, fittings, supports, and the like, plus a reasonable excess to
allow for field variations. The cold lead section shall be seven feet long unless other-
wise specified.
3. Maximum heating cable sheath temperature, per either the FM or CSA method of cal-
culation, shall be submitted with the bid or design for all Division 1 and Division 2
applications.
4. Each cable shall be shipped with the catalog number marked on the outside of the
package, and a permanent metallic cable tag containing the heating cable length, watt-
age, voltage, and current draw. If the cable has been designed for a hazardous loca-
tion, the tag shall also indicate the area classification and heat-tracing circuit number.
5. A warranty against manufacturing defects for a period of 10 years shall be available.6. The heating cable shall be Pyrotenax
brand Alloy 825 MI mineral insulated heating
cable with a maximum application temperature for the heating units of 1022F
(550C) and a maximum exposure temperature for the heating cable of 1238F
(670C), as manufactured by Tyco Thermal Controls.
F.
Skin-Effect Tracing Systems, Circuit Lengths up to 15 Miles, Freeze Protection and Process
Temperature Maintenance up to 392F (200C), with or without Steam Exposure
. For very
long lines, process temperature maintenance and freeze protection, skin-effect tracing is
usually the best choice.
1. The heating system shall consist of an electrically insulated, temperature-resistant
conductor with high-temperature, heavy-walled fluoropolymer insulation installed
inside a heat tube and connected to the tube at the far end.
2. The heat tube shall be ferromagnetic and thermally coupled to the carrier pipe that is
being traced.3. The design must be completed by the system manufacturer.
4. The installation should be supervised by the system manufacturer.
5. The heat-tracing system shall be Tracer STS (Skin-Effect Tracing System) longline
heating system as manufactured by Tyco Thermal Controls.
3.6 Heat-Trace Panels
A. For freeze protection or group control process-temperature maintenance systems, distri-
bution panels shall consist of an enclosure, including a panelboard with ground-fault
protection devices (30 mA trip level). The panels shall provide ground-fault alarm capabil-
ities. If more than one circuit is required, a main contactor shall be used. The panels shall
operate with ambient-sensing or proportional ambient-sensing controllers. The panel
shall be the Tracer HTPG heat tracing panel as manufactured by Tyco Thermal Controls.
B. For individual control process temperature maintenance systems, distribution panels
shall consist of an enclosure, including a panelboard with ground-fault protection devices
(30 mA trip level). The panels shall provide ground-fault alarm capabilities. Circuits shall
be switched by individual contactors operated by line-sensing controllers. The panel shall
be the Tracer HTPI heat tracing panel as manufactured by Tyco Thermal Controls.
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3.7 Control and Monitoring Systems
All control and monitoring systems shall be capable of communicating with a host PC for
central programming, status review, and alarm annunciation. All systems shall include, but
not be limited to, the following:
A. Alarm limits and set-point temperatures shall be programmable from the central monitor-
ing and control panel in F and C. The system shall include an alphanumeric display with
multilanguage support and password protection or lockable cabinet to prevent unautho-rized access to the system.
B. The system shall be switched by an external solid state or mechanical relay with a mini-
mum rating of 30 amps.
C. The system shall be capable of assigning one or more RTDs to a circuit to monitor tem-
perature. The controller shall be capable of one RTD to control the heater circuit and a
second RTD for another control point or to measure sheath temperature of a heater for
high temperature cutout.
D. The system shall monitor temperature, voltage, and line current to the systems.
E. The system shall monitor ground-fault current and offer the option of alarm or trip if the
ground fault exceeds the selectable level.
3.7.1 SINGLE OR DUAL CIRCUIT CONTROL AND MONITORING DEVICES
A. The system shall be field-mounted and shall have FM or CSA approval for Class I, Divi-sion 2, Groups A, B, C, D when using a solid-state switching device.
B. The system shall provide the user with the option of line-sensing control with a user-
selectable dead band, ambient sensing, proportional ambient sensing (PASC), and power
limiting control modes.
C. The system shall provide an isolated triac alarm relay or a dry contact relay for alarm
annunciation back to a Distributed Control System (DCS).
D. Electrical code-approved ground-fault detection equipment shall be integral to the
controller to simplify installation and reduce total cost.
E. Enclosure type shall be NEMA 4X fiberglass reinforced plastic (FRP) or stainless steel for
corrosion resistance and protection from moisture.
F. DigiTrace units may be network-ready to provide communication to a host PC running
Windows-based Supervisor software for central programming, status review, and
alarm annunciation. DigiTrace units shall support the Modbus RTU or ASCII/HTCBus
communications protocol and be supplied complete with RS-485 communications inter-
face capability.
G. The system shall be DigiTrace 910 or DigiTrace 920 heat-tracing control systems, as
manufactured by Tyco Thermal Controls.
3.7.2 MULTICIRCUIT HARD-WIRED CONTROL AND MONITORING SYSTEMS RACK
MOUNTED
A. The system shall have FM or CSA approval for Class I, Division 2, Groups A, B, C, D when
using a solid-state switching device or using electromechanical relays and a
Z-purge system.
B. The system shall provide an isolated triac alarm relay for alarm annunciation back to a
Distributed Control System (DCS).
C. Electrical code-approved ground-fault detection equipment shall be integral to the con-
troller to simplify installation and reduce total cost.
D. Multicircuit hard-wired control and monitoring systems shall be rack mounted complete
with integral power distribution panels.
E. The panel shall be complete with individual control contactors, circuit breakers, power
transformers (adjacent to each panel), space heaters, or panel cooling system as required.
F. Units shall be network-ready to provide communication to a host PC running Windows-
based Supervisor software for central programming, status review, and alarm annuncia-
tion. DigiTrace units shall support the Modbus RTU or ASCII/HTCBus communications
protocol and be supplied complete with RS-485 communications interface capability.
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G. The system shall be DigiTrace T2000 heat-tracing control systems, as manufactured by
Tyco Thermal Controls.
3.7.3 MULTICIRCUIT DISTRIBUTED-ARCHITECTURE CONTROL AND MONITORING SYSTEM
A. The control and monitoring system shall be capable of controlling heat-tracing circuits
with line-sensing control, ambient-sensing control, or proportional ambient-sensing con-
trol (PASC). The system shall be capable of using resistance temperature detectors
(RTDs) that are wired directly to the central monitoring systems, to a remote module that
communicates with the central monitoring system over a twisted pair, or to a temperature
transmitter that communicates to a remote module over the bus wires of the heater
(power-line carrier technology).
B. For temperature monitoring without power line carrier technology the system shall use
resistance temperature detectors (RTDs) that are wired to the central monitoring and
control panel or to a remote module that communicates with the central monitoring and
control system via a twisted pair. For temperature control the system shall use on-off
control methods with contactors addressed through the central monitoring and control
panel.
C. The non-power line carrier part of the system shall be compatible with all types of heating
cables and capable of performing the following functions:
1. Monitoring and controlling pipe temperatures.2. Providing real-time temperature and alarm log readouts.
3. Providing alarms in the event of low or high pipe temperature, or in case of sensor
failure.
4. Providing remote alarm annunciation.
5. Interfacing with personal computers and DCS systems.
D. The system shall be capable of utilizing power line carrier technology that uses the heat-
ing cable bus wires and power distribution wiring for communication, thus eliminating
additional field instrument/sensor wiring. Temperature transmitters shall monitor heating
cable continuity and temperature at any point along the heat-tracing circuit, including
teed-off heating segments and the end of the circuit. The temperature monitoring the sys-
tem shall use resistance temperature detectors (RTDs) wired directly to the temperature
transmitters. Electrical isolation between the plant environment and the system shall be
provided by dedicated, shielded, heat-tracing isolation transformers and filters.E. The system shall use on-off control methods to maintain temperatures of heat-tracing
circuits. Process temperature control shall be accomplished using contactors addressed
through the central monitoring and control panel. The contactors shall be grouped into a
common NEMA 12, 4 or 4X-rated enclosure. Ambient temperature control and propor-
tional ambient sensing control (PASC) shall be accomplished using dry contacts in the
central monitoring and control panel to switch an auxiliary contactor, which in turn ener-
gizes or de-energizes heat-tracing circuits.
F. The power line carrier part of the system shall be compatible with all types of parallel
heating cables and capable of performing the following functions:
1. Monitoring and controlling pipe temperatures.
2. Monitoring heating cable continuity and ground leakage current (via 5GF-C).
3. Providing alarms in the event of low or high pipe temperatures, loss of heating cable
continuity, loss of panel power, loss of service voltage to the heating cable, sensorfailure, or microprocessor failure.
4. Providing time-stamped temperature and alarm log readouts.
5. Performing self-diagnostic routines for commissioning and troubleshooting.
6. Interfacing with DCS systems.
G. The monitoring and control system shall be the DigiTrace 200NI/200NG monitoring and
control system as manufactured by Tyco Thermal Controls.
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3.8 Thermostats and Contactors
A. Freeze protection systems shall operate using self-regulating control or with the
Digitrace AMC-1A or Digitrace AMC-F5 thermostat and the Digitrace E104-100A or
Digitrace E304-40A contactor in nonhazardous areas, and Digitrace AMC-1H thermostat
with Digitrace E307-40A contactor in hazardous locations, as supplied by Tyco Thermal
Controls.
B. Process temperature maintenance systems shall operate using self-regulating control orwith Digitrace AMC-1B thermostat and Digitrace E104-100A or Digitrace E304-40A con-
tactor in nonhazardous areas and Digitrace E507S-LS or Digitrace RAYSTAT-EX-03-A
thermostats and Digitrace E307-40A contactor in hazardous locations, as supplied by
Tyco Thermal Controls.
4 Engineering
A. The vendor shall be given a line list from which to design and estimate a complete heat-
tracing system. The bid package shall also include area layout and orthographic drawings.
B. The vendor shall provide a detailed design utilizing standard heat-tracing design software,
such as Tyco Thermal Controls TraceCalc
Pro design software or equal. At minimum,
the design must provide the following:
1. Circuit identification number2. Maintain temperature
3. Line size and insulation
4. Heat loss for pipe, valves, and supports
5. Amount and type of heating cable required
6. Spiral requirements
7. Heating cable service voltage
8. Heating cable power output at the maintain temperature
9. Minimum and maximum maintain temperature vs. minimum and maximum ambient
temperatures
10. Circuit breaker and transformer sizing
C. The vendor shall provide heat-tracing isometric drawings at the buyers request, using
either hard copy or machine-readable CAD inputs.
5 Testing
A. Factory inspections and tests for self-regulating, power limiting, series constant wattage
and constant wattage (MI) heater cables shall include but are not limited to the following:
1. Testing shall be done per the latest IEEE Std. 515 test section and applicable manufac-
turers standards.
2. In the field, all heater cables shall be meggered. The following separate field megger
readings shall be taken on each self-regulating and each M.I. heater cable:
a. Heater cable shall be meggered when received at jobsite before installation.
b. Heater cable shall be meggered after installation, but before insulation is applied.
c. Heater cable shall be meggered after insulation has been installed.
3. All three of the above field megger readings shall be greater than 20 megohms. Other-
wise, the heater cable is not acceptable and shall be replaced.4. Field megger tests shall be recorded for each heater cable, and certified reports shall
be submitted to the user.
Tyco Thermal Controls
300 Constitution Drive
Menlo Park, CA 94025-1164
Tel(800) 545-6258
Fax(800) 527-5703
www.tycothermal.com
info@tycothermal.com
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